SU1000252A1 - Method of cleaning abrasive wheel at grinding ferromagnetic material part - Google Patents

Description

(54) METHOD FOR CLEANING THE ABRASIVE CIRCLE FOR GRINDING DETAILS FROM A FERROMAGNETIC MATERIAL The invention relates to mechanical engineering and can be used to grind precision parts like ferromagnetic bushings. A known method of cleaning an abrasive wheel when grinding a part from a ferromagnetic material, according to which a magnetic field 1 is created at the surface of the circle. This method is ineffective with internal grinding, since creating a high magnetic field in an inaccessible area inside the part causes difficulty. The purpose of the invention is to increase the cleaning efficiency of the abrasive wheel of DIR; . internal associated grinding. This goal is achieved by the fact that the magnetic field is created by uniform magnetization on the surface to be machined with details, and in one of the parts of the part outside the cutting zone they create additional magnetization with induction greater than in the cutting zone. The drawing shows the scheme of the proposed method of cleaning abrasive wheels. To clean the abrasive wheel 1, part 2 is magnetized evenly by external magnetic field 3. In one area 4, parts create additional magnetization by magnetic field 5, so that in this area the magnetic field reaches its maximum value. When sanding, ferromagnetic particles 6, cut by abrasive wheel 1, are attracted to the inner surface of part 2 and, rotated together with the part, fall into area 4 of maximum induction, where they accumulate. The implementation of the method allows to increase the cleaning efficiency and, processing performance and stability of the circle. This is due to the fact that due to the influence of magnetic forces, a smaller number of particles get stuck in the pores of the abrasive wheel, the chips that fly out of the cutting area no longer enter it. In addition, by saving

Claims (1)

Claim A method of cleaning an abrasive wheel when grinding a part from a ferromagnetic material, according to which a magnetic field is created at the surface of the wheel, I distinguish it by the fact that in order to increase the cleaning efficiency with internal grinding, the magnetic field is created by magnetizing uniformly around the circumference of the workpiece, and on one 1S of the parts of the part outside the cutting zone create additional magnetization with induction greater than in the cutting zone.